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Presentation transcript:

6 Managing Quality PowerPoint presentation to accompany Heizer and Render Operations Management, Eleventh Edition Principles of Operations Management, Ninth Edition PowerPoint slides by Jeff Heyl © 2014 Pearson Education, Inc.

Outline Global Company Profile: Arnold Palmer Hospital Quality and Strategy Defining Quality Total Quality Management Tools of TQM The Role of Inspection TQM in Services

Learning Objectives When you complete this chapter you should be able to: Define quality and TQM Describe the ISO international quality standards Explain what Six Sigma is Explain how benchmarking is used in TQM Explain quality robust products and Taguchi concepts Use the seven tools of TQM

Managing Quality Provides a Competitive Advantage Arnold Palmer Hospital Deliver over 12,000 babies annually Virtually every type of quality tool is employed Continuous improvement Employee empowerment Benchmarking Just-in-time Quality tools © 2014 Pearson Education, Inc.

Quality and Strategy Managing quality supports differentiation, low cost, and response strategies Quality helps firms increase sales and reduce costs Building a quality organization is a demanding task

Two Ways Quality Improves Profitability Figure 6.1 Improved response Flexible pricing Improved reputation Sales Gains via Improved Quality Increased Profits Increased productivity Lower rework and scrap costs Lower warranty costs Reduced Costs via

The Flow of Activities Organizational Practices Leadership, Mission statement, Effective operating procedures, Staff support, Training Yields: What is important and what is to be accomplished Quality Principles Customer focus, Continuous improvement, Benchmarking, Just-in-time, Tools of TQM Yields: How to do what is important and to be accomplished Employee Fulfillment Empowerment, Organizational commitment Yields: Employee attitudes that can accomplish what is important Customer Satisfaction Winning orders, Repeat customers Yields: An effective organization with a competitive advantage Figure 6.2

Defining Quality An operations manager’s objective is to build a total quality management system that identifies and satisfies customer needs

Defining Quality The totality of features and characteristics of a product or service that bears on its ability to satisfy stated or implied needs American Society for Quality

Different Views User-based: better performance, more features Manufacturing-based: conformance to standards, making it right the first time Product-based: specific and measurable attributes of the product

Implications of Quality Company reputation Perception of new products Employment practices Supplier relations Product liability Reduce risk Global implications Improved ability to compete

Malcolm Baldrige National Quality Award Established in 1988 by the U.S. government Designed to promote TQM practices Recent winners include Lockheed Martin Missiles and Fire Control, MESA Products Inc., North Mississippi Health Services, City of Irving, Concordia Publishing House, Henry Ford Health System, MEDRAD, Nestlé Purina PetCare Co., Montgomery County Public Schools

Baldrige Criteria Applicants are evaluated on: CATEGORIES POINTS Leadership 120 Strategic Planning 85 Customer Focus Measurement, Analysis, and Knowledge Management 90 Workforce Focus Operations Focus Results 450

ISO 9000 International Quality Standards International recognition Encourages quality management procedures, detailed documentation, work instructions, and recordkeeping 2009 revision emphasized sustained success Over one million certifications in 178 countries Critical for global business

ISO 9000 International Quality Standards Management principles Top management leadership Customer satisfaction Continual improvement Involvement of people Process analysis Use of data-driven decision making A systems approach to management Mutually beneficial supplier relationships

Costs of Quality Prevention costs - reducing the potential for defects Appraisal costs - evaluating products, parts, and services Internal failure costs - producing defective parts or service before delivery External failure costs - defects discovered after delivery

Costs of Quality External Failure Internal Failure Prevention Total Cost Quality Improvement Total Cost External Failure Internal Failure Prevention Appraisal

Takumi A Japanese character that symbolizes a broader dimension than quality, a deeper process than education, and a more perfect method than persistence

Leaders in Quality TABLE 6.1 Leaders in the Field of Quality Management LEADER PHILOSOPHY/CONTRIBUTION W. Edwards Deming Deming insisted management accept responsibility for building good systems. The employee cannot produce products that on average exceed the quality of what the process is capable of producing. His 14 points for implementing quality improvement are presented in this chapter. Joseph M. Juran A pioneer in teaching the Japanese how to improve quality, Juran believed strongly in top-management commitment, support, and involvement in the quality effort. He was also a believer in teams that continually seek to raise quality standards. Juran varies from Deming somewhat in focusing on the customer and defining quality as fitness for use, not necessarily the written specifications.

Leaders in Quality TABLE 6.1 Leaders in the Field of Quality Management LEADER PHILOSOPHY/CONTRIBUTION Amarnd Feigenbaum His 1961 book Total Quality Control laid out 40 steps to quality improvement processes. He viewed quality not as a set of tools but as a total field that integrated the processes of a company. His work in how people learn from each other’s successes led to the field of cross-functional teamwork. Philip B. Crosby Quality Is Free was Crosby’s attention-getting book published in 1979. Crosby believed that in the traditional trade-off between the cost of improving quality and the cost of poor quality, the cost of poor quality is understated. The cost of poor quality should include all of the things that are involved in not doing the job right the first time. Crosby coined the term zero defects and stated, “There is absolutely no reason for having errors or defects in any product or service.”

Ethics and Quality Management Operations managers must deliver healthy, safe, quality products and services Poor quality risks injuries, lawsuits, recalls, and regulation Ethical conduct must dictate response to problems All stakeholders much be considered

Total Quality Management Encompasses entire organization from supplier to customer Stresses a commitment by management to have a continuing companywide drive toward excellence in all aspects of products and services that are important to the customer

Deming’s Fourteen Points TABLE 6.2 Deming’s 14 Points for Implementing Quality Improvement 1. Create consistency of purpose 2. Lead to promote change 3. Build quality into the product; stop depending on inspections to catch problems 4. Build long-term relationships based on performance instead of awarding business on price 5. Continuously improve product, quality, and service 6. Start training 7. Emphasize leadership

Deming’s Fourteen Points TABLE 6.2 Deming’s 14 Points for Implementing Quality Improvement 8. Drive out fear 9. Break down barriers between departments 10. Stop haranguing workers 11. Support, help, and improve 12. Remove barriers to pride in work 13. Institute a vigorous program of education and self-improvement 14. Put everyone in the company to work on the transformation

Seven Concepts of TQM Continuous improvement Six Sigma Employee empowerment Benchmarking Just-in-time (JIT) Taguchi concepts Knowledge of TQM tools

Continuous Improvement Never-ending process of continual improvement Covers people, equipment, materials, procedures Every operation can be improved

Shewhart’s PDCA Model 4. Act Implement the plan, document Plan Identify the pattern and make a plan Figure 6.3 3. Check Is the plan working? 2. Do Test the plan

Continuous Improvement Kaizen describes the ongoing process of unending improvement TQM and zero defects also used to describe continuous improvement

Six Sigma Two meanings Statistical definition of a process that is 99.9997% capable, 3.4 defects per million opportunities (DPMO) A program designed to reduce defects, lower costs, save time, and improve customer satisfaction A comprehensive system for achieving and sustaining business success

Six Sigma Two meanings Statistical definition of a process that is 99.9997% capable, 3.4 defects per million opportunities (DPMO) A program designed to reduce defects, lower costs, save time, and improve customer satisfaction A comprehensive system for achieving and sustaining business success Lower limits Upper limits 2,700 defects/million ±3 Mean 3.4 defects/million ±6 Figure 6.4

Six Sigma Program Originally developed by Motorola, adopted and enhanced by Honeywell and GE Highly structured approach to process improvement A strategy A discipline – DMAIC A set of 7 tools 6

Six Sigma Defines the project’s purpose, scope, and outputs, identifies the required process information keeping in mind the customer’s definition of quality Measures the process and collects data Analyzes the data ensuring repeatability and reproducibility Improves by modifying or redesigning existing processes and procedures Controls the new process to make sure performance levels are maintained DMAIC Approach

Implementing Six Sigma Emphasize defects per million opportunities as a standard metric Provide extensive training Focus on corporate sponsor support (Champions) Create qualified process improvement experts (Black Belts, Green Belts, etc.) Set stretch objectives This cannot be accomplished without a major commitment from top level management

Employee Empowerment Getting employees involved in product and process improvements 85% of quality problems are due to process and material Techniques Build communication networks that include employees Develop open, supportive supervisors Move responsibility to employees Build a high-morale organization Create formal team structures

Quality Circles Group of employees who meet regularly to solve problems Trained in planning, problem solving, and statistical methods Often led by a facilitator Very effective when done properly

Benchmarking Selecting best practices to use as a standard for performance Determine what to benchmark Form a benchmark team Identify benchmarking partners Collect and analyze benchmarking information Take action to match or exceed the benchmark

Best Practices for Resolving Customer Complaints Table 6.3 BEST PRACTICE JUSTIFICATION Make it easy for clients to complain It is free market research Respond quickly to complaints It adds customers and loyalty Resolve complaints on first contact It reduces cost Use computers to manage complaints Discover trends, share them, and align your services Recruit the best for customer service jobs It should be part of formal training and career advancement

Internal Benchmarking When the organization is large enough Data more accessible Can and should be established in a variety of areas

Just-in-Time (JIT) Relationship to quality: JIT cuts the cost of quality JIT improves quality Better quality means less inventory and better, easier-to- employ JIT system

Just-in-Time (JIT) ‘Pull’ system of production scheduling including supply management Production only when signaled Allows reduced inventory levels Inventory costs money and hides process and material problems Encourages improved process and product quality

Taguchi Concepts Engineering and experimental design methods to improve product and process design Identify key component and process variables affecting product variation Taguchi Concepts Quality robustness Quality loss function Target-oriented quality

Quality Robustness Ability to produce products uniformly in adverse manufacturing and environmental conditions Remove the effects of adverse conditions Small variations in materials and process do not destroy product quality

Target-oriented quality Quality Loss Function Shows that costs increase as the product moves away from what the customer wants Costs include customer dissatisfaction, warranty and service, internal scrap and repair, and costs to society Traditional conformance specifications are too simplistic Target-oriented quality

Quality Loss Function L = D2C where L = loss to society D2 = square of the distance from target value C = cost of deviation High loss Loss (to producing organization, customer, and society) Low loss Unacceptable Poor Good Best Fair Frequency Lower Target Upper Specification Target-oriented quality yields more product in the “best” category Target-oriented quality brings product toward the target value Conformance-oriented quality keeps products within 3 standard deviations Figure 6.5

TQM Tools Tools for Generating Ideas Tools to Organize the Data Check Sheet Scatter Diagram Cause-and-Effect Diagram Tools to Organize the Data Pareto Chart Flowchart (Process Diagram)

TQM Tools Tools for Identifying Problems Histogram Statistical Process Control Chart

Seven Tools of TQM (a) Check Sheet: An organized method of recording data Hour Defect 1 2 3 4 5 6 7 8 A B C / / / / Figure 6.6

Seven Tools of TQM (b) Scatter Diagram: A graph of the value of one variable vs. another variable Absenteeism Productivity Figure 6.6

Seven Tools of TQM (c) Cause-and-Effect Diagram: A tool that identifies process elements (causes) that might effect an outcome Cause Materials Methods Manpower Machinery Effect Figure 6.6

Seven Tools of TQM (d) Pareto Chart: A graph to identify and plot problems or defects in descending order of frequency Frequency Percent A B C D E Figure 6.6

Seven Tools of TQM (e) Flowchart (Process Diagram): A chart that describes the steps in a process Figure 6.6

Seven Tools of TQM (f) Histogram: A distribution showing the frequency of occurrences of a variable Distribution Repair time (minutes) Frequency Figure 6.6

Seven Tools of TQM (g) Statistical Process Control Chart: A chart with time on the horizontal axis to plot values of a statistic Upper control limit Target value Lower control limit Time Figure 6.6

Cause-and-Effect Diagrams Material (ball) Method (shooting process) Size of ball Lopsidedness Grain/Feel (grip) Air pressure Follow-through Hand position Aiming point Bend knees Balance Missed free-throws Training Conditioning Motivation Concentration Consistency Manpower (shooter) Rim alignment Rim size Backboard stability Rim height Machine (hoop & backboard) Figure 6.7

Pareto Charts Data for October 54 12 4 3 2 70 – 60 – 50 – 40 – 30 – 70 – 60 – 50 – 40 – 30 – 20 – 10 – 0 – Frequency (number) Causes and percent of the total Cumulative percent Data for October – 100 – 93 – 88 – 72 Room svc Check-in Pool hours Minibar Misc. 72% 16% 5% 4% 3% 12 4 3 2 54 Number of occurrences

Flow Charts MRI Flowchart Physician schedules MRI Patient taken to MRI Patient signs in Patient is prepped Technician carries out MRI Technician inspects film If unsatisfactory, repeat Patient taken back to room MRI read by radiologist MRI report transferred to physician Patient and physician discuss 9 8 80% 11 10 1 2 3 4 5 6 7 20%

Statistical Process Control (SPC) Uses statistics and control charts to tell when to take corrective action Drives process improvement Four key steps Measure the process When a change is indicated, find the assignable cause Eliminate or incorporate the cause Restart the revised process

Control Charts Plot the percent of free throws missed Figure 6.8 Plot the percent of free throws missed Upper control limit Coach’s target value Lower control limit Game number | | | | | | | | | 1 2 3 4 5 6 7 8 9 40% 20% 0%

Inspection Involves examining items to see if an item is good or defective Detect a defective product Does not correct deficiencies in process or product It is expensive Issues When to inspect Where in process to inspect

When and Where to Inspect At the supplier’s plant while the supplier is producing At your facility upon receipt of goods from your supplier Before costly or irreversible processes During the step-by-step production process When production or service is complete Before delivery to your customer At the point of customer contact

Inspection Many problems Cannot inspect quality into a product Worker fatigue Measurement error Process variability Cannot inspect quality into a product Robust design, empowered employees, and sound processes are better solutions

Source Inspection Also known as source control The next step in the process is your customer Ensure perfect product to your customer

Source Inspection Poka-yoke is the concept of foolproof devices or techniques designed to pass only acceptable product Checklists ensure consistency and completeness

Service Industry Inspection TABLE 6.4 Examples of Inspection in Services ORGANIZATION WHAT IS INSPECTED STANDARD Jones Law Office Receptionist performance Billing Attorney Phone answered by the second ring Accurate, timely, and correct format Promptness in returning calls Hard Rock Hotel Reception desk Doorman Room Minibar Use customer’s name Greet guest in less than 30 seconds All lights working, spotless bathroom Restocked and charges accurately posted to bill

Service Industry Inspection TABLE 6.4 Examples of Inspection in Services ORGANIZATION WHAT IS INSPECTED STANDARD Arnold Palmer Hospital Billing Pharmacy Lab Nurses Admissions Accurate, timely, and correct format Prescription accuracy, inventory accuracy Audit for lab-test accuracy Charts immediately updated Data entered correctly and completely Olive Garden Restaurant Busboy Waiter Serves water and bread within 1 minute Clears all entrée items and crumbs prior to dessert Knows and suggest specials, desserts

Service Industry Inspection TABLE 6.4 Examples of Inspection in Services ORGANIZATION WHAT IS INSPECTED STANDARD Nordstrom Department Store Display areas Stockrooms Salesclerks Attractive, well-organized, stocked, good lighting Rotation of goods, organized, clean Neat, courteous, very knowledgeable

Attributes Versus Variables Items are either good or bad, acceptable or unacceptable Does not address degree of failure Variables Measures dimensions such as weight, speed, height, or strength Falls within an acceptable range Use different statistical techniques

TQM In Services Service quality is more difficult to measure than the quality of goods Service quality perceptions depend on Intangible differences between products Intangible expectations customers have of those products

Service Quality The Operations Manager must recognize: The tangible component of services is important The service process is important The service is judged against the customer’s expectations Exceptions will occur

Service Specifications

Determinants of Service Quality Table 6.5 Reliability involves consistency of performance and dependability Responsiveness concerns the willingness or readiness of employees to provide service Competence means possession of the required skills and knowledge to perform the service Access involves approachability and ease of contact Courtesy involves politeness, respect, consideration, and friendliness Communication means keeping customers informed and listening to them Credibility involves trustworthiness, believability, and honesty Security is the freedom from danger, risk, or doubt Understanding/knowing the customer involves making the effort to understand the customer’s needs Tangibles include the physical evidence of the service

Service Recovery Strategy Managers should have a plan for when services fail Marriott’s LEARN routine Listen Empathize Apologize React Notify

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